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Inhomogeneous high temperature melting and decoupling of charge density waves in spin-triplet superconductor UTe2

Author

Listed:
  • Alexander LaFleur

    (Boston College)

  • Hong Li

    (Boston College)

  • Corey E. Frank

    (National Institute of Standards and Technology)

  • Muxian Xu

    (Boston College)

  • Siyu Cheng

    (Boston College)

  • Ziqiang Wang

    (Boston College)

  • Nicholas P. Butch

    (National Institute of Standards and Technology
    University of Maryland)

  • Ilija Zeljkovic

    (Boston College)

Abstract

Charge, spin and Cooper-pair density waves have now been widely detected in exotic superconductors. Understanding how these density waves emerge — and become suppressed by external parameters — is a key research direction in condensed matter physics. Here we study the temperature and magnetic-field evolution of charge density waves in the rare spin-triplet superconductor candidate UTe2 using scanning tunneling microscopy/spectroscopy. We reveal that charge modulations composed of three different wave vectors gradually weaken in a spatially inhomogeneous manner, while persisting to surprisingly high temperatures of 10–12 K. We also reveal an unexpected decoupling of the three-component charge density wave state. Our observations match closely to the temperature scale potentially related to short-range magnetic correlations, providing a possible connection between density waves observed by surface probes and intrinsic bulk features. Importantly, charge density wave modulations become suppressed with magnetic field both below and above superconducting Tc in a comparable manner. Our work points towards an intimate connection between hidden magnetic correlations and the origin of the unusual charge density waves in UTe2.

Suggested Citation

  • Alexander LaFleur & Hong Li & Corey E. Frank & Muxian Xu & Siyu Cheng & Ziqiang Wang & Nicholas P. Butch & Ilija Zeljkovic, 2024. "Inhomogeneous high temperature melting and decoupling of charge density waves in spin-triplet superconductor UTe2," Nature Communications, Nature, vol. 15(1), pages 1-8, December.
    • Handle: RePEc:nat:natcom:v:15:y:2024:i:1:d:10.1038_s41467-024-48844-7
    DOI: 10.1038/s41467-024-48844-7
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